Design, engineering, and manufacturing are undergoing a digital transformation, and the need for a collaborative product development environment is becoming an ever-growing requirement. Autodesk® Fusion 360™ meets this need by connecting CAD, CAM, and CAE in a single cloud-based platform unlike any other tool of its kind. This course builds upon digital manufacturing trends and foundational CAD concepts discussed in Course 1 of this series by introducing Fusion 360 as a problem-solving tool. In this course, we take the next step in connecting CAD, CAM, and CAE through a series of short exercises on 3D modeling, rendering, simulation, and computer aided manufacturing.
After completing this course series, you will be able to:
• Demonstrate knowledge of and apply job entry level skills in computer aided design, computer aided engineering (CAE) and computer aided manufacturing (CAM) using Fusion 360 software.
• Describe and apply design based workflows for design, engineering and manufacturing using Fusion 360 software.
• Utilize Fusion 360 cloud based collaboration features for project sharing and design review.

AW

This course has given me what I wanted...….. to explore the best CAD, CAM software in the world. In the end I would like to say ' Thank you' Autodesk and Coursera

SS

Jul 29, 2018

Filled StarFilled StarFilled StarFilled StarFilled Star

Best Course i completed Autodesk fusion 360. It gives you single detail how to work on AUTODESK FUSION 360. Finally It is very helpful to me.

从本节课中

CAM and 3D printing resources

Fusion 360 is the first 3D CAD, CAM, and CAE tool of its kind. It connects your entire product development process in a single cloud-based solution supporting the digital manufacturing process. With Fusion 360, you can create toolpaths to machine your components or use the 3D printing workflow to create a design prototype. This week covers the basics of CAM and 3D printing using Fusion 360.

教学方

Autodesk Education

脚本

The final step in creating a CNC program is posting the code to what is commonly referred to as G-code. Again, we will use the FSAE Steering Wheel CAM Final file for this lesson. And then we'll make sure that setup one is active. Then we'll start the post process tool from the Actions pull-down. You might receive a warning about an initial path error. I'll select Yes to continue, and reset the default location. When this is cleared up, the process dialogue appears, and I can set the operation type to filter post configuration options to only milling machines and choose a different machine controller if I need to change it. I can set the path for the output folder, ideally, this would be in a place where I can locate the code file from the networked machines. It's also a common practice to use a jump drive or other portable devices to load the code into the machine, so I might need to save the file locally. The program number and the comment came forward from the setup, but we can change it here if we need to. We can also choose whether or not we want to use the document units or override them. In the lower right is a property field where we can change some of the default parameters before creating the post to save us having to edit after the fact. To save a little time searching for the output code, let's select open NC file in editor so it opens as soon as the file is created. Now we'll select Post. When the file is opened, we see the program number and the comment are posted at the top, then information regarding the tooling. Then the program will work through each operation using the G-code control movements and speed of the tools. As we move down the list, we find each of the operations. This file can now be loaded in the CNC milling machine to cut the part.